FI76878C - Procedure for regulating the air exchange of a building and a construction for application of the procedure. - Google Patents

Description

1 76878

METHOD FOR ORGANIZING VENTILATION IN A BUILDING AND STRUCTURE FOR APPLYING THE METHOD

The invention relates to a method for arranging ventilation in a building which has or is subjected to a pressure deviating from normal pressure in the rooms of the building. The invention further relates to a structure for applying the method.

The problem with most buildings is securing the ventilation of the buildings in all conditions. Especially in heated buildings, the problem is the quality and amount of replacement air and the distribution of replacement air in different rooms. In buildings where the air is cooled, such as in warm conditions or in cooling rooms, for example, the problem is the disadvantages caused by the wetting of the structures and the reliable provision of ventilation. In an attempt to heat 15 the air brought in from outside, the energy contained in the walls is not sufficiently utilized.

When using mechanical air conditioning systems, 20 air inside the building is continuously removed and replacement air is introduced. Depending on the conditions, the replacement air has to be either heated or cooled, before it is led to the rooms and various equipment has been arranged in the replacement air inlet ducts for these purposes. Similarly, 25 rooms have to be deaerated from the rooms using various equipment. Such air ducts, ducts and cleaning, cooling or heating installations are expensive and bulky and time and costly to install, clean and maintain. In addition, the thermal energy of the space between the suspended ceiling and the roof of 30 buildings is currently not sufficiently utilized to heat the replacement air. Another problem is the cost of air conditioning operation when using mechanical air conditioning for both air supply and exhaust.

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The object of the invention is to provide a method for arranging ventilation in a building, which method eliminates the drawbacks of the current methods. In particular, it is an object of the invention to provide a method which does not require expensive piping and / or ducts for conveying either replacement air or exhaust air and less cleaning and heating equipment. It is a further object of the invention to provide a method which is easy to use and reliable. It is a further object of the invention 10 to provide a structure for applying the method which is advantageous to manufacture and in which the air conditioning operates efficiently and reliably.

The object of the invention is achieved by a method and a structure characterized by what is stated in the claims.

According to the invention, the higher pressure air on one side of the wall of the building is led to the other side of the wall '20 mainly through the air permeable insulating materials of the wall and is guided in the insulating materials by substantially less permeable guide materials placed in the wall. When there is a vacuum in the room, air flows through the wall from the outside to the inside. Similarly, when there is overpressure in the room space, there is a flow direction from the inside out.

When attempting to heat buildings, the replacement air must be heated before it enters the room. In the method according to the invention 30, replacement air is passed through the wall when there is or has been created a vacuum in the room space. In this case, the replacement air is simultaneously heated by the thermal energy contained in the wall of the building. The air is led into the outer wall of the building from openings made at the desired points 35 inside the wall and guided inside by the insulating materials. When using the method, no special replacement air ducts or similar or heating equipment is required, as the wall of the building acts as both an air 3 76878 duct and a heat exchanger. During the heating season, the replacement air is taken in mainly through the walls, but during the warm season, such as in summer, the replacement air can also be taken in other ways, e.g. through windows and ventilation hatches 5. As insulation materials, known, suitable thermal insulation materials are used, which also act as a purifier and filter for the replacement air.

10 In hot conditions and for special purposes, such as cold stores or the like, the indoor temperature of the building is kept lower than the outdoor temperature. When the pressure inside the building is higher than the pressure outside, air exits from the interior through the walls of the building under the control of control materials. This eliminates the need for separate exhaust ducts and prevents wetting problems.

The invention provides a simple and efficient air-20 recirculation system whereby when heating a building, replacement air is recirculated in the building wall materials until it is sufficiently warmed and then directed indoors, and when cooling the building, exhaust air is recycled in the wall materials, cooling the air and cooling the wall. . In the former case, part of the thermal energy passing through the walls of the building is recovered by means of control materials and air recirculation and the convection flow in the walls is prevented. In the corresponding case, the wall is cooled by air coming from the interior.

As the guide material, known materials suitable for the purpose are used, such as plastic, fibreboard, adhesive layers or the like. The guide material is substantially less air permeable than the insulating material, and 4 76878 e.g. holes can be made in it to change the air permeability properties. The control material can be selected from either a partially air-permeable material or an impermeable control material is used in some applications.

In a preferred embodiment of the invention, where the rooms have or are evacuated, replacement air is taken in mainly through the outer wall of the building into the wall, circulated in the interior of the wall and led into the room mainly from the top of the room. In this case, the air 10 heats up as it circulates, but is still cooler than the room air and mixes effectively with the room air. In one application, replacement air is taken mainly from the lower part of the building wall into the wall, circulated in the inner parts of the wall and led to the room from its upper part. 15 In this case, the air is directed as it heats upwards and inside the building under the influence of vacuum. In the room, it causes air to circulate and change.

In one application, replacement air is taken mainly from the top of the wall of the building into the wall, circulated in the interior of the wall and led to the room mainly from the tops of the room. In this case, the cold replacement air is initially directed downwards and at a certain point upwards inside the wall, whereby an efficient heat transfer from the wall 25 to the replacement air is achieved.

In a third embodiment of the invention, replacement air is taken from both the top and bottom of the wall, and possibly also from the center, inside the wall, circulated in the interior of the wall 30 and led into the room mainly from the top of the room. In this case, the entire wall can be used effectively both as an air conditioning duct and as a heat exchanger. In this and other application supports, the replacement air can at least partially be directed to the room space of the building also from points other than the very top of the room space, but the best result is achieved by introducing the replacement air into the room space to its upper parts.

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In some applications, the method according to the invention utilizes the heat of the space between the false ceiling and the roof by passing part of the replacement air to these spaces and from there to the room spaces through the air-permeable heat-5 insulation materials in the false ceiling. The temperature of these rooms can be 5-10 ° C higher than the outdoor temperature during the cold season, and the method can utilize this thermal energy.

In a preferred embodiment of the invention, where the room spaces 10 are or are overpressurized, air is led from the room to the wall, circulated in the interior of the wall and led out mainly from the bottom of the wall. Under such conditions, where the outside air temperature is generally higher than the room temperature, the exhaust air cools the wall and warms at the same time. In this case, the wall temperature changes relatively evenly from the inside to the outside and the problems caused by moisture damage are prevented. In this application, air can be taken from the room space through 20 openings in the wall cladding arranged at the desired location.

In embodiments of the invention, air is drawn into the wall mainly from openings arranged in the outer or inner surface of the wall. The outer and inner surfaces are formed of substantially less permeable guide materials and, in some applications, of airtight guide material.

As the insulating material, a suitable insulating material 30 is used, which is e.g. a thermal insulating material. A suitable insulating material filters impurities from the replacement air and pre-humidifies the air, making the air healthy and comfortable.

The invention will now be explained in more detail with reference to the accompanying drawing, in which Figure 1 shows the walls of a building according to the invention 76878 for applying its method in a side view and in cross-section, Figure 2 shows another embodiment as a schematic drawing of a wall structure for applying the method 5 according to the invention; in cross-section, Fig. 3 shows a side view and a cross-section of one of the three embodiments of the wall structure for applying the method according to the invention, and Fig. 4 shows a side view and a cross-section of a fourth embodiment of the wall structure.

In the embodiment shown in Figure 1, the structures forming the walls of the building include air-permeable thermal insulation materials 3 and guide materials 4, which are substantially made of materials that are less permeable to insulation materials, and in some applications air-impermeable guide materials are used. The walls of the building are provided with a substantially air-impermeable surface in which openings 5a, 5b are formed for the intake of replacement air. An opening 5a is formed in the lower part of the wall and an opening 5b is formed in the upper part of the wall. In this embodiment, a guide material 4a is arranged to extend obliquely to the upper part of the wall, which directs the air coming from the opening 5b through the air-permeable thermal insulation layer 25 in the duct 7 into the attic space between the false ceiling and the roof. There is no need to provide other air vents in the attic. In this application, a longitudinally extending wall guide material 4 is arranged in the central part of the wall, in the central part of which an opening 30 5 is arranged. The inside of the wall and the ceiling are provided with substantially less air permeable material and an opening 5c is provided in the upper part of the wall. The false ceiling is mainly provided with an air-permeable thermal insulation material, and in some applications openings are provided in the ceiling control material 35 through which the replacement air is directed to the room 1 from the attic spaces.

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In the application shown, the room 1 of the building has or is provided with a vacuum, for example mechanically. Replacement air is taken in through the walls and air enters the walls through openings 5a and 5b. The air entering through the lower opening 5a circulates through the opening 5 to the top of the wall and through the opening 5c to the room 1. The air coming through the upper opening 5b circulates through the duct 7 and the attic space 6 to the wall thermal insulation layer and through the opening 5 to the interior and room 5c. In this case, the air can be controlled with the desired t a-10 by means of control materials and led into the room, e.g. through the bottom of the luminaire, whereby the heat of the luminaire also heats the incoming air.

Figure 2 shows the air recirculation when the replacement air is taken only through the opening 5b in the upper part of the wall. In this application, the guide material is arranged to extend from the top of the wall close to the bottom of the wall, whereby air is efficiently circulated in the wall structures.

20

In the embodiment shown in Fig. 3, air recirculation in the wall is introduced when the replacement air is taken only through the opening 5a in the lower part of the wall. In this case, there are several guide material plates which efficiently circulate the air inside the wall.

In the embodiment shown in Figure 4, the guide material is placed relatively close to the inner surface of the wall. In this case, the gap, which can be provided with a poorly permeable material or thermal insulation, acts as an insulating layer. Air is led from the bottom of the wall into the structure and into the room from the top of the wall. The air from the attic spaces is also recirculated both in the ceiling and in the outer wall as shown in the figure by means of guide materials. '15

In applications where there is or is an overpressure in the room, air is led out of the room in a manner similar to the applications shown from the outside to the inside of the room.

The invention is not limited to the embodiments shown, but 3 may vary within the scope of the claims. The method is suitable for use both in the renovation of old buildings and in the construction of new buildings. The shape and position of the control plates on the walls can vary as desired. In some applications, only a portion of the wall 10 is utilized to take in replacement air.

Claims (9)

A method of providing ventilation in a building, in which building; that is, the room space raises or where a beverage is produced which deviates from the normal pressure, characterized in that air which is under higher pressure on one side of the building wall (2) is conducted to the other side of the wall through air permeable thermal insulation material (3) in the wall and controlled in heat insulation materials by means of the wall insulation materials in the direction of the outer surface of the wall located control material (4), which is substantially less air permeable than its surroundings. 2. A method according to claim 1, characterized in that the air is circulated by means of air impermeable control materials placed in the walls 15. 3. A method according to claim 1 or 2, wherein the process in the building's room spaces escapes or where an underpressure is obtained, characterized in that the replacement air is taken mainly through the exterior wall of the building into the wall, circulated in the interior parts of the wall and led into the room space. mainly at the upper part of the room. 25 4. A method according to claim 3, characterized in that a part of the replacement air is led into the space between the roof and the intermediate roof and from there to the room spaces by means of thermal insulation material present in the intermediate roof. 30 5. A method according to claim 1 or 2, wherein the method in the building's room spaces escapes or where an overpressure is obtained, characterized in that the air is led from the room space into the wall, circulated in the inner parts of the wall and is discharged mainly at the lower part of the wall. ..